CN213087157U - Exposed frame type glass curtain wall - Google Patents

Abstract

The utility model discloses a bright frame glass curtain wall belongs to glass curtain wall technical field, solves prior art, and glass curtain wall span is bigger, and the spreader and the stand that set up are more time-consuming, can't guarantee the air convection, and the overheated gas in the air interlayer can't discharge exhaust problem promptly. The utility model discloses a stand, with stand complex spreader, set up double glazing on stand and spreader, cooperate fixed double glazing's fixed plate with stand and spreader respectively, with fixed plate matched with buckle, the stand including founding the roof beam and with founding roof beam integrated into one piece's upright caulking groove, the spreader includes the crossbeam and with crossbeam integrated into one piece's horizontal caulking groove, the air interlayer between founding caulking groove and double glazing is linked together, be provided with heat radiation structure on the caulking groove, heat radiation structure passes the fixed plate and cooperatees with the air vent and dispels the heat. The utility model is used for architectural decoration.

Description

Exposed frame type glass curtain wall

Technical Field

A exposed frame type glass curtain wall is used for architectural decoration and belongs to the technical field of glass curtain walls.

Background

The glass of the exposed frame glass curtain wall is embedded in the aluminum frame to form a curtain wall component with the aluminum frame on four sides, the curtain wall component is embedded on the cross column and the upright column to form a vertical surface with the exposed cross column and the exposed upright column and the obvious aluminum frame cells. The exposed frame glass curtain wall is the most traditional form, has the most extensive application and reliable working performance. Compared with a hidden frame glass curtain wall, the hidden frame glass curtain wall is easier to meet the requirements of construction technology level.

The exposed frame glass curtain wall not only allows glass to participate in indoor and outdoor heat transfer, but also allows the aluminum alloy frame to participate in indoor and outdoor heat transfer. In a curtain wall unit, the glass area far exceeds the area of an aluminum alloy frame, so the thermal performance of the glass is dominant in an exposed frame glass curtain wall.

In the exposed frame glass curtain wall, the glass has a very large area, and when the exposed frame glass curtain wall is arranged in a place with a large temperature difference between summer and winter, the ventilation property, the energy saving property, the heat transfer property, the heat preservation property and the like need to be considered.

The method adopted in the prior art is as follows: based on double glazing, carry out the wind gap in the bottom setting of upper and lower double-deck outer wall, set up the air exit at the top to get rid of the superheated gas in the air interlayer when summer, utilize hot pressing principle to organize the ventilation. Meanwhile, movable sunshade facilities are arranged in the air interlayer as means for sunshade in summer and obtaining solar radiation in winter, for example, in winter, the controller closes the movable ventilation openings at the top and the bottom, and the air interlayer in the middle is used as an indoor thermal buffer layer by utilizing the winter temperature effect. In summer, the upper and lower grilles of the air interlayer are all opened, external circulation airflow is formed by utilizing the chimney effect, heat in the interlayer is released, and the movable shutter prevents the direct radiation of the sun from getting hot.

However, the above prior art has the following problems:

1. the air inlet and the air outlet are arranged on one side of the wall body, if the span of the glass curtain wall is large and the number of the arranged transverse columns and the arranged upright columns is large, the arrangement mode is not applicable, namely air convection cannot be ensured, and overheated gas in the air space cannot be discharged;

2. the air inlet and the air outlet are controlled to be closed through the controller, so that the air interlayer is used as a thermal buffer layer, and a power supply is needed when the air interlayer is closed, so that the structure is complex (electromagnetic or solar electromagnetic plates and the like need to be arranged), the structure of the equipment is too much, glass can be shielded, and light transmission is influenced;

3. local ventilation or local heat replacement cannot be realized, namely ventilation cannot be performed according to the requirements of people at various positions;

4. because the grey scale exists in the air passing through the air inlet and the air outlet, the inner layer of the glass is polluted, and the cleaning is difficult.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a bright frame glass curtain wall, solve prior art, glass curtain wall span is bigger, and the spreader and the stand that set up are more when many, can't guarantee the air convection current, and the overheated gas in the air interlayer can't discharge exhaust problem promptly.

In order to realize the purpose, the utility model discloses a technical scheme be:

the utility model provides a bright frame glass curtain wall, includes the stand, with stand complex spreader, sets up double glazing on stand and spreader, cooperate fixed double glazing's fixed plate with stand and spreader respectively, with fixed plate matched with buckle, the stand including stand the roof beam and with stand roof beam integrated into one piece's upright caulking groove, the spreader include the crossbeam and with crossbeam integrated into one piece's horizontal caulking groove, the air interlayer between upright caulking groove and double glazing is linked together, be provided with heat radiation structure on the upright caulking groove, be provided with the air vent on the buckle, heat radiation structure passes the fixed plate and cooperatees with the air vent and dispels the heat.

Further, heat radiation structure includes first cooling tube and second cooling tube, be provided with the side through-hole on the founding caulking groove, be provided with first cooling tube on the side through-hole, first cooling tube one end is located founding the caulking groove, and the other end is located the air interlayer.

Furthermore, the first radiating pipe opening positioned at one end of the air space layer is sealed or opened by the first radiating pipe positioned at one end of the vertical embedding groove.

Furthermore, one end of the second radiating pipe is communicated with the vertical embedding groove, and the other end of the second radiating pipe penetrates through the fixing plate to be connected with the edge of the vent hole.

Furthermore, two ends of the second radiating pipe are not on the same horizontal plane, wherein one end connected with the vent hole is a low end.

Furthermore, a dustproof net is arranged at one end connected with the vent hole and in the second radiating pipe.

Furthermore, a support structure is arranged in the vertical beam, and a worm wheel structure which is matched with the worm wheel and drives the worm wheel to spirally advance or retreat is arranged on the support structure;

a third threaded pipe is connected to the second radiating pipe positioned on one side of the vertical embedding groove, and the other end of the third threaded pipe is positioned in the vertical beam;

the scroll bar is in threaded fit with a third threaded pipe positioned in the vertical beam;

and the vertical beam is provided with a ventilation hole.

Further, the supporting structure is a U-shaped plate, and fixing holes in sliding fit with the scroll rods are formed in the opposite sides of the U-shaped plate.

Further, the turbine structure includes the rotary rod, sets up on the rotary rod and cooperatees with the scroll bar, drives the turbine that the scroll bar spiral advanced or receded, is connected with the rotary rod, sets up the rotatory knob of indoor one side control rotary rod pivoted.

Further, the third threaded pipe does not have a heat radiation function.

Compared with the prior art, the utility model has the advantages of:

the vertical caulking groove on the upright post is provided with the heat dissipation structure, the air interlayer and the outdoor heat transmission, so that the high temperature of the air interlayer can be greatly reduced through the heat dissipation structure in summer, and the energy consumption for opening the air conditioner can also be reduced;

the heat dissipation structure of the utility model comprises the first heat dissipation tube and the second heat dissipation tube, has simple structure and convenient arrangement, and does not influence the installation of the double-layer glass;

third, the first radiating pipe opening located at one end of the air space in the utility model is to facilitate the hot air in the air space to be quickly transferred to the vertical caulking groove, and when the first radiating pipe opening located at one end of the vertical caulking groove is in a sealing state, the heat transfer is carried out through the material of the first radiating pipe, and when the first radiating pipe opening is in a sealing state, the dust can be prevented from entering the air space to pollute the glass; when the opening state is adopted, the heat transfer can be accelerated more quickly;

in the utility model, the second radiating pipe at one end connected with the vent hole is lower than the other end, so as to prevent rainwater from entering the vertical caulking groove or the air interlayer in rainy days;

fifthly, the arrangement of the dust screen in the utility model is to prevent the dust in the air from entering the vertical caulking groove or the double-layer air interlayer;

sixth, the utility model is provided with a support structure, a worm, a turbine structure, a third threaded pipe and a ventilation hole on the vertical beam, and the turbine structure can be controlled to drive the worm to match with the third threaded pipe, thus realizing indoor and outdoor ventilation or non-ventilation operation;

seventhly, the utility model provides a third screwed pipe does not have the radiating effect, is for reducing air space and indoor heat transfer.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to these drawings without inventive efforts.

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a partial schematic view of the fixed fit of the center pillar and the double glazing of the present invention;

FIG. 3 is a partial schematic view of the center pillar, the fixing plate and the buckle plate of the present invention;

fig. 4 is a schematic view of a fixing plate according to the present invention;

fig. 5 is a schematic view of the buckle plate of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that, if the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer" and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the product of the present invention is used, the description is only for convenience of description and simplification, but the indication or suggestion that the device or element to be referred must have a specific position, be constructed and operated in a specific position, and thus, cannot be understood as a limitation of the present invention.

Furthermore, the appearances of the terms "first," "second," "third," and the like, if any, are only used to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical", "overhang" and the like do not require that the components be absolutely horizontal or overhang, but may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present invention, it should be further noted that unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

It should be noted that the features of the embodiments of the present invention may be combined with each other without conflict.

In the drawings shown in the present application, some heat insulating strips and the like are not shown, and the blocking pieces, the protruding strips, the connecting holes and the like in each component are not shown, and the parts not shown are understood by combining the relevant parts of the prior art.

As shown in fig. 1, a bright frame glass curtain wall, including stand 1, with stand 1 complex spreader 2, set up double glazing 3 on stand 1 and spreader 2, cooperate fixed plate 4 of fixed double glazing 3 with stand 1 and spreader 2 respectively, with fixed plate 4 matched with buckle 5, stand 1 includes upright beam 6 and the upright caulking groove 7 with upright beam 6 integrated into one piece, spreader 2 include crossbeam 8 and with crossbeam 8 integrated into one piece's horizontal caulking groove 9, the air interlayer 10 between upright caulking groove 7 and double glazing 3 is linked together, be provided with heat radiation structure on the upright caulking groove 7, be provided with air vent 11 on the buckle 5, heat radiation structure passes fixed plate 4 and cooperatees with air vent 11 and dispels the heat.

The air space 10 between the vertical caulking groove 7 and the double-layer glass 3 is communicated in a mode of arranging holes (side through holes which are described later), and air convection can be carried out through the arranged holes, so that heat dissipation of the air space is realized.

The fixing plate 4 is also used for radiating through the heat radiation structure by arranging holes, and certainly, can also directly pass through the fixing plate and radiate through the material of the heat radiation structure.

The heat dissipation structure comprises a first heat dissipation pipe 13 and a second heat dissipation pipe 14, a side through hole 12 is formed in the vertical embedding groove 7, the first heat dissipation pipe 13 is arranged on the side through hole 12, one end of the first heat dissipation pipe 13 is located in the vertical embedding groove 7, and the other end of the first heat dissipation pipe is located in the air space layer 10.

The first radiating pipe 13 and the second radiating pipe 14 are made of a radiating material, such as an aluminum material, and the first radiating pipe is adopted to absorb high temperature in the air space layer, and then the material of the first radiating pipe brings heat to the vertical caulking groove 7.

The first radiating pipe 13 at one end of the air space layer 10 is opened, and the first radiating pipe 13 at one end of the vertical embedding groove 7 is sealed or opened.

The first radiating pipe 13 at one end of the air space is opened so that hot air in the air space can be quickly transferred into the vertical caulking groove, and when the first radiating pipe 13 at one end of the vertical caulking groove is in a sealing state, heat transfer is carried out through the material of the first radiating pipe 13, and when the first radiating pipe 13 is in the sealing state, dust can be prevented from entering the air space to pollute glass; in the open state, heat transfer can be accelerated more rapidly, i.e., heat exchange can be performed by space convection and material.

One end of the second radiating pipe 14 is communicated with the vertical embedding groove 7, and the other end of the second radiating pipe passes through the fixing plate 4 to be connected with the edge of the vent hole 11.

The second heat pipe 14 exchanges heat in the vertical insertion groove 7 and is discharged through the vent hole 11.

The two ends of the second radiating pipe 14 are not located at the same horizontal plane, wherein the end connected with the vent hole 11 is a low end. The purpose of this arrangement is to prevent rainwater from entering the vertical embedding groove 7, as shown in fig. 2 and 3, the second radiating pipe 14 is L-shaped, or straight, or adopts an inclined installation manner, or may adopt other structures.

The one end that is connected with air vent 11 is provided with dust screen (for showing in the figure) in the second cooling tube 14, the aperture of dust screen is little, and concrete setting is carried out according to the requirement of keeping off the dirt, preferably adopts non-absorbent material to set up, and after the collection dirt, when raining, the rainwater still can play the effect of self-cleaning dust screen to do not influence the heat exchange or take a breath.

A support structure is arranged in the vertical beam 6, and a worm wheel structure which is matched with the worm wheel 15 and drives the worm wheel 15 to spirally advance or retreat is arranged on the support structure;

a third threaded pipe 16 is connected to the second radiating pipe 14 positioned on one side of the vertical embedding groove 7, the other end of the third threaded pipe 16 is positioned in the vertical beam 6, and the third threaded pipe is an internal thread;

the scroll 15 is in threaded fit with a third threaded pipe 16 positioned in the vertical beam 6;

the vertical beam 6 is provided with a ventilation hole 17, and the position of the ventilation hole 17 is not limited to the position shown in fig. 2 and 3.

The support structure is a U-shaped plate 18, and fixing holes 19 matched with the scroll rods 15 in a sliding mode are formed in the opposite sides of the U-shaped plate 18.

Of course, the support structure may be other structures that can fix both ends of the scroll 15.

The turbine structure comprises a rotating rod 20, a turbine 21 which is arranged on the rotating rod 20 and matched with the scroll 15 to drive the scroll to advance or retreat in a spiral manner, and a rotating button 22 which is connected with the rotating rod 20 and is arranged at one indoor side to control the rotating of the rotating rod 20. Wherein, the forward movement means that the scroll rod moves towards the direction of the third threaded pipe and is in rotating fit with the third threaded pipe, namely, the sealing is carried out, and the backward movement means that the scroll rod is separated from the third threaded pipe.

The third threaded pipe 16 has no heat radiation function.

The structure can be provided in a plurality according to the height of the middle upright post of the exposed frame type glass curtain wall and the installation space.

The glass positioned on one outdoor side is heat insulation glass, and the glass positioned on one indoor side is heat preservation glass.

Examples

In practice, in summer, the air space is subjected to heat exchange with the outdoor through the heat dissipation structure, namely, the temperature in the air space is not too high, when the indoor air conditioner is opened, the position at the edge of the glass window can be quickly cooled, when ventilation is needed, the turbine 21 is driven by rotating the rotary knob 22 to drive the scroll rod 15 to be separated from the third threaded pipe 16, and indoor and outdoor air circulation is realized through the ventilation hole 17, although the temperature entering the indoor is buffered in the vertical embedding groove 7 and slightly improved due to the fact that the outdoor temperature is too high, the heat dissipation structure dissipates heat at any time, so that the temperature cannot be increased too much (specifically determined according to the outdoor temperature and the like), the temperature in the air space is lowered greatly integrally, and even ventilation is realized, the temperature at one side of the glass window can be greatly reduced;

in winter, when ventilation is needed, the turbine 21 is driven by rotating the rotary knob 22 to drive the worm 15 to be separated from the third threaded pipe 16, and indoor and outdoor air circulation is realized through the ventilating hole 17, at the moment, because the external temperature is too low and the temperature of an air space is relatively higher, the entering air can be buffered in the vertical embedding groove 7, so that the temperature of the entering air is slightly increased, and wind shielding and noise reduction can be realized; because the outdoor temperature is too low, even if the heat exchange is not carried out in the air interlayer, the temperature in the air interlayer can not be increased too much (namely, the air interlayer and the outdoor temperature are basically the same), so that under the condition of arranging the heat dissipation structure, the temperature on one side of the glass window can not be greatly reduced when the air exchange is carried out in winter.

If ventilation is not required, the rotary knob 22 is rotated to drive the turbine 21 to drive the worm 15 to seal with the third threaded pipe 16.

The utility model discloses can not use the power, realize totally by the mechanism structure, realize the convenience very, still can select which position replacement gas according to the demand.

To sum up, heat dissipation mode and mode of taking a breath, more be applicable to the four seasons.

Because the tripe setting does not clear up in double glazing, or has changed not good the change, the utility model discloses can adopt the mode of outer setting, set up in indoor one side promptly, can set up on stand and spreader, also can independently set up on the wall body.

Claims (10)

1. The utility model provides a bright frame glass curtain wall, includes stand (1), with stand (1) complex spreader (2), sets up double glazing (3) on stand (1) and spreader (2), cooperate fixed plate (4) of fixed double glazing (3) with stand (1) and spreader (2) respectively, with fixed plate (4) matched with buckle (5), stand (1) including found roof beam (6) and with found roof beam (6) integrated into one piece found caulking groove (7), spreader (2) include crossbeam (8) and with crossbeam (8) integrated into one piece's horizontal caulking groove (9), its characterized in that: the air space (10) between the vertical caulking groove (7) and the double-layer glass (3) is communicated, a heat dissipation structure is arranged on the vertical caulking groove (7), an air hole (11) is formed in the buckle plate (5), and the heat dissipation structure penetrates through the fixing plate (4) to be matched with the air hole (11) for heat dissipation.

2. The exposed frame type glass curtain wall according to claim 1, wherein: the radiating structure comprises a first radiating pipe (13) and a second radiating pipe (14), a side through hole (12) is formed in the vertical embedding groove (7), the first radiating pipe (13) is arranged on the side through hole (12), one end of the first radiating pipe (13) is located in the vertical embedding groove (7), and the other end of the first radiating pipe (13) is located in the air interlayer (10).

3. The exposed frame type glass curtain wall according to claim 2, wherein: the first radiating pipe (13) positioned at one end of the air space layer (10) is opened, and the first radiating pipe (13) positioned at one end of the vertical embedding groove (7) is sealed or opened.

4. The exposed frame type glass curtain wall according to claim 2, wherein: one end of the second radiating pipe (14) is communicated with the vertical embedding groove (7), and the other end of the second radiating pipe penetrates through the fixing plate (4) to be connected with the edge of the vent hole (11).

5. The exposed frame type glass curtain wall according to claim 4, wherein: the two ends of the second radiating pipe (14) are not in the same horizontal plane, wherein one end connected with the vent hole (11) is a low end.

6. The exposed frame type glass curtain wall according to claim 5, wherein: and a dustproof net is arranged in the second radiating pipe (14) at one end connected with the vent hole (11).

7. The exposed frame type glass curtain wall according to claim 6, wherein: a support structure is arranged in the vertical beam (6), a worm rod (15) and a turbine structure which is matched with the worm rod (15) and drives the worm rod (15) to advance or retreat in a spiral manner are arranged on the support structure;

a third threaded pipe (16) is connected to the second radiating pipe (14) positioned on one side of the vertical embedding groove (7), and the other end of the third threaded pipe (16) is positioned in the vertical beam (6);

the scroll rod (15) is in threaded fit with a third threaded pipe (16) positioned in the vertical beam (6);

and the vertical beam (6) is provided with a ventilation hole (17).

8. The exposed frame type glass curtain wall according to claim 7, wherein: the supporting structure is a U-shaped plate (18), and fixing holes (19) which are in sliding fit with the scroll rods (15) are formed in the opposite sides of the U-shaped plate (18).

9. The exposed frame type glass curtain wall according to claim 8, wherein: the turbine structure comprises a rotating rod (20), a turbine (21) which is arranged on the rotating rod (20) and is matched with the scroll rod (15) to drive the scroll rod to advance or retreat in a spiral mode, and a rotating button (22) which is arranged on one indoor side and controls the rotating rod (20) to rotate is connected with the rotating rod (20).

10. An exposed frame type glass curtain wall according to any one of claims 4 to 9, wherein: the third threaded pipe (16) has no heat dissipation effect.

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